At the end of the dark ages, anatomy was taught as though everything that could be known was known. Scholars learned about what had been discovered rather than how to make discoveries. This was true even though the body (and the rest of biology) was very poorly understood. The renaissance eventually brought a revolution in how scholars (and graduate students) were trained and worked. This revolution never occurred in K–12 or university education such that we now teach young students in much the way that scholars were taught in the dark ages, we teach them what is already known rather than the
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TEAM MEMBERS:
Robert DunnJulie UrbanDarlene CavalierCaren Cooper
From Intel to Facebook, Google and Apple, technology companies are joining other science, technology, engineering, and mathematics (STEM) industry leaders in a grand challenge to diversify their workforce. Finally, two sides of the diversity message can be heard simultaneously: expanding opportunities for women and girls is not just the right thing to do, investing in diversity is also a smart business opportunity. To meet workforce supply demands, improve innovation, and ensure social equity, STEM professions need the imaginations and talents of girls and underrepresented communities of color
Our complex and changing world demands an adaptable workforce that is prepared to collaboratively reason through tough problems and come up with creative solutions to the challenges of tomorrow. STEM (science, technology, engineering, and math) educational opportunities cultivate students’ curiosity and creativity while teaching them to work as a team, base their reasoning on evidence, and solve problems through experimentation. Our students must gain the critical thinking abilities and other transferrable skills offered by STEM to be prepared for the unknown challenges and opportunities of
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STEM Education Coalition Policy Forum
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. Through a unique university-zoo partnership, Project TRUE engages New York City high school students in authentic urban ecology field research in the surrounding metropolitan area. Central to the project design is a tiered mentorship model, in which Fordham University professors mentor undergraduate and graduate ecology students, who in turn mentor high school students from communities underrepresented in STEM fields. Project TRUE also pairs the university
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. Grant funds for this project support research into the needs and preferences of the audiences to assemble content and test two pilot issues of a peer-reviewed journal supporting innovative
advances that work at the intersection of formal and informal science, technology, engineering, and math (STEM) education.
The Wildlife Conservation Society and Good Shepherd Services (a youth development and education agency) are implementing and evaluating a school-to-career model program that consists of afterschool and weekend programming for high school students at four New York City area zoos and an aquarium, followed by post-participation tracking, support, and mentoring. The goal is to promote affective, cognitive and behavioral outcomes among 150 low-income minority youth necessary to pursue careers in the wildlife sciences.
The Bridging the Gap project is (1) developing a science career program that includes hands-on, technology-enriched, science learning experiences at zoos/aquaria; career building services, mentoring, and long-term tracking and support, (2) forming a community of minority students who have the knowledge and skills to pursue wildlife careers, (3) generating research findings on the short-term and long-term effectiveness of the program, and (4) disseminating information about the project's resources and findings to other informal science education institutions around the nation for replication. The evaluation plan measures a variety of outputs, outcomes and impacts that include short-term and long-term cognitive and affective variables. Data collection methods include student activity monitoring and pre-post testing.
The project addresses a compelling personnel issue documented by the American Zoo and Aquarium Association - the small number of minority science professionals working in zoos and aquariums. Because few programs currently exist to help minority students enter the wildlife science professions, this project fills an important programmatic need and serves as a model workforce program that can be replicated by other informal science education organizations around the country. The project's key strategic impact is its capacity to broaden participation in the wildlife sciences by expanding the science professional pipeline beginning in high school.
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TEAM MEMBERS:
Karen TingleyChanda BennettDon LisowyBrian JohnsonEmily StoethCourtney Wiggins
To address the lack of diversity that exists within the fields of wildlife and conservation science, the Wildlife Conservation Society (WCS) developed "Bridging the Gap," a three-year youth development initiative for New York City high school students. Over the course of three cohorts, "Bridging the Gap" served 150 students from communities underrepresented in the sciences. The project aimed to help participants see the relevance of science study to their own lives and support them in pursuing a career in wildlife conservation or another science. Participants engaged in activities including
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TEAM MEMBERS:
Karen TingleyBrian JohnsonEmily StoethCourtney Wiggins
This article describes a design-based research (DBR) study conducted as part of a larger initiative, Science on the Move, intended to bring non-facilitated and unexpected science, technology, engineering, and math (STEM) learning experiences to public transit stations. Drawing from prior research on situational interest, pedestrian navigation, and design affordances, the study was intended to (a) support the development of exhibit prototypes in transit stations and (b) build a theoretically-grounded conjecture map of multi-stage visitor attention, including factors which support or discourage
This report summarizes findings from a research-practice partnership investigating STEM-rich making in afterschool programs serving young people from communities historically under-represented in STEM. The three-year study identified key dimensions related to (1) How STEM-Rich Making advances afterschool programmatic goals related to socio-emotional and intellectual growth for youth; (2) Key characteristics of programs that effectively engage youth historically marginalized in STEM fields; and (3) Staff development needs to support equity-oriented STEM-Rich Making programs.
The dramatic decline in youth interest in science, technology, engineering and mathematics (STEM) during adolescence, both in the USA and internationally, has been a phenomenon of societal concern for several decades. The Synergies project was launched to help deal with this issue. In this paper, we report findings from the first two years of our longitudinal survey research. We sought to understand the nature of the STEM-related interests of 10-/11-year-old youth living in a single urban community and the factors that seem to influence whether these various dimensions of interest increase
The nature of STEM (science, technology, engineering, and mathematics) learning is changing as individuals have unprecedented, 24/7 access to science-related information and experiences from cradle to grave. Today’s science-education opportunities include not only traditional schooling, but also libraries, museums, zoos, aquaria, science centers, and parks and preserves; diverse broadcast media such as television, podcasts, and film; organized youth programs such as 4-H, after-school or summer camps, and special-interest clubs and hobby groups; and an ever-increasing array of digital media
These blog posts were written by researcher Andee Rubin in 2013 & 2014 as a way to provide technical assistance to investigators planning to carry out research in informal settings. The first post provides a history of human subjects protection as it emerged from medical research and thoughts about the application of these principles to informal settings. The second discusses the set of federally-mandated rules that Institutional Review Boards (IRBs) use to protect human subjects and describes how and when researchers need to seek IRB approval for their work. The third describes techniques for